MC3346
电气特性
( TA = + 25 ℃,除非另有说明。 )
特征
静态特性
集电极 - 基极击穿电压
( IC = 10
μAdc )
集电极 - 发射极击穿电压
( IC = 1.0 MADC )
集电极 - 基极击穿电压
( IC = 10
µA)
发射极 - 基极击穿电压
(IE = 10
μAdc )
集电极 - 基极截止电流
( VCB = 10 VDC , IE = 0 )
直流电流增益
( IC = 10 MADC , VCE = 3.0 V直流)
( IC = 1.0 MADC , VCE = 3.0 V直流)
( IC = 10
μAdc ,
VCE = 3.0 V直流)
基射极电压
( VCE = 3.0伏, IE = 1.0 MADC )
( VCE = 3.0伏, IE = 10 MADC )
输入失调电流的匹配对Q1和Q2
( VCE = 3.0伏, IC = 1.0 MADC )
输入失调电压的幅值
( VCE = 3.0伏, IC = 1.0 MADC )
的基射极电压的温度系数
( VCE = 3.0伏, IC = 1.0 MADC )
温度COEF网络cient
集电极 - 发射极截止电流
( VCE = 10 VDC , IB = 0 )
动态特性
低频噪声图
( VCE = 3.0伏, IC = 100
μAdc ,
RS = 1.0千欧, F = 1.0千赫)
正向电流传输比
( VCE = 3.0伏, IC = 1.0 MADC , F = 1.0千赫)
短路输入阻抗
( VCE = 3.0伏, IC = 1.0 MADC )
开路输出阻抗
( VCE = 3.0伏, IC = 1.0 MADC )
反向电压传输比
( VCE = 3.0伏, IC = 1.0 MADC )
正向转移导纳
( VCE = 3.0伏, IC = 1.0 MADC , F = 1.0兆赫)
输入导纳
( VCE = 3.0伏, IC = 1.0 MADC , F = 1.0兆赫)
输出导纳
( VCE = 3.0伏, IC = 1.0 MADC , F = 1.0兆赫)
电流增益 - 带宽积
( VCE = 3.0伏, IC = 3.0 MADC )
发射极 - 基极电容
( VEB = 3.0伏, IE = 0 )
集电极 - 基极电容
( VCB = 3.0伏, IC = 0 )
集电极 - 衬底电容
( VCS = 3.0伏, IC = 0 )
NF
的hFE
缺氧缺血性脑病
HOE
HRE
YFE
一愕
YOE
fT
CEB
建行
CCI
–
–
–
–
–
–
–
–
300
–
–
–
3.25
110
3.5
15.6
1.8
31–j1.5
0.3 + j0.04
0.001 + j0.03
550
0.6
0.58
2.8
–
–
–
–
–
–
–
–
–
–
–
–
dB
–
kΩ
μmhos
x10–4
–
–
–
兆赫
pF
pF
pF
V( BR ) CBO
V( BR ) CEO
V( BR )首席信息官
V( BR ) EBO
ICBO
的hFE
–
40
–
VBE
–
–
| IIO1 - IIO2 |
–
∆V
BE
DT
∆V
IO
DT
ICEO
–
–
–
0.72
0.8
0.3
0.5
–1.9
–
–
2.0
5.0
–
μAdc
MVDC
毫伏/°C的
μV/°C
μAdc
140
130
60
–
–
–
VDC
20
15
20
5.0
–
60
–
60
7.0
–
–
–
–
–
40
VDC
VDC
VDC
VDC
NADC
–
符号
民
典型值
最大
单位
–
–
1.0
–
–
0.5
2
摩托罗拉模拟集成电路设备数据
FREESCALE [ FREESCALE SEMICONDUCTOR, INC ]
